"SyncOne is a pleasure device developed with -based video motion capture and high-precision algorithms that enable real-time mechanical control. The system connects with PCs, mobile applications, and VR devices, allowing it to function across multiple interfaces. Its contact component is produced from transparent TPU using a two-shot molding process, resulting in a unibody design for easy removal and insertion. The section incorporates a sealing groove to prevent leaks and a diffuser that amplifies vibration power."
"During the Engineering Validation Test (EVT) and Design Validation Test (DVT) stages, the design team, led by Lee Yi Chung, used 3D modeling and 3D printing to verify initial mechanical principles before developing simplified injection molds for early test components. Each version underwent mechanical evaluation and dimensional analysis, followed by incremental refinements. Through repeated adjustments to tolerances, load paths, and internal spatial configuration, the design achieved a more efficient mechanical transmission and an optimized internal structure."
SyncOne uses AI-based video motion capture and high-precision algorithms to enable real-time mechanical control across PCs, mobile apps, and VR devices. The contact component is molded from transparent TPU via a two-shot process into a unibody piece with a sealing groove and a diffuser to amplify vibration while simplifying removal and cleaning. The base includes a waterproof airflow channel, PTC heating, and UVC lights for sterilization and drying. Engineering validation relied on 3D modeling, 3D printing, and simplified injection molds with iterative mechanical evaluation and tolerance adjustments to optimize transmission and internal structure. Unibody development balanced material flexibility and structural softness for waterproofing and consistent manufacturing quality. CMF development aligned visual and functional goals.
Read at designboom | architecture & design magazine
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